Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism

The gastrointestinal tract (GIT) plays a key role in regulating nutrient metabolism and appetite responses. This study aimed to identify changes in the GIT that are important in the development of diet related obesity and diabetes. GIT samples were obtained from C57BL/6J male mice chronically fed a...

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Autores principales: O’Brien, Patrick, Han, Ge, Ganpathy, Priya, Pitre, Shweta, Zhang, Yi, Ryan, John, Sim, Pei Ying, Harding, Scott V., Gray, Robert, Preedy, Victor R., Sanders, Thomas A. B., Corpe, Christopher P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7794826/
https://www.ncbi.nlm.nih.gov/pubmed/33375525
http://dx.doi.org/10.3390/ijms22010137
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author O’Brien, Patrick
Han, Ge
Ganpathy, Priya
Pitre, Shweta
Zhang, Yi
Ryan, John
Sim, Pei Ying
Harding, Scott V.
Gray, Robert
Preedy, Victor R.
Sanders, Thomas A. B.
Corpe, Christopher P.
author_facet O’Brien, Patrick
Han, Ge
Ganpathy, Priya
Pitre, Shweta
Zhang, Yi
Ryan, John
Sim, Pei Ying
Harding, Scott V.
Gray, Robert
Preedy, Victor R.
Sanders, Thomas A. B.
Corpe, Christopher P.
author_sort O’Brien, Patrick
collection PubMed
description The gastrointestinal tract (GIT) plays a key role in regulating nutrient metabolism and appetite responses. This study aimed to identify changes in the GIT that are important in the development of diet related obesity and diabetes. GIT samples were obtained from C57BL/6J male mice chronically fed a control diet or a high sucrose diet (HSD) and analysed for changes in gene, protein and metabolite levels. In HSD mice, GIT expression levels of fat oxidation genes were reduced, and increased de novo lipogenesis was evident in ileum. Gene expression levels of the putative sugar sensor, slc5a4a and slc5a4b, and fat sensor, cd36, were downregulated in the small intestines of HSD mice. In HSD mice, there was also evidence of bacterial overgrowth and a lipopolysaccharide activated inflammatory pathway involving inducible nitric oxide synthase (iNOS). In Caco-2 cells, sucrose significantly increased the expression levels of the nos2, iNOS and nitric oxide (NO) gas levels. In conclusion, sucrose fed induced obesity/diabetes is associated with changes in GI macronutrient sensing, appetite regulation and nutrient metabolism and intestinal microflora. These may be important drivers, and thus therapeutic targets, of diet-related metabolic disease.
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spelling pubmed-77948262021-01-10 Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism O’Brien, Patrick Han, Ge Ganpathy, Priya Pitre, Shweta Zhang, Yi Ryan, John Sim, Pei Ying Harding, Scott V. Gray, Robert Preedy, Victor R. Sanders, Thomas A. B. Corpe, Christopher P. Int J Mol Sci Article The gastrointestinal tract (GIT) plays a key role in regulating nutrient metabolism and appetite responses. This study aimed to identify changes in the GIT that are important in the development of diet related obesity and diabetes. GIT samples were obtained from C57BL/6J male mice chronically fed a control diet or a high sucrose diet (HSD) and analysed for changes in gene, protein and metabolite levels. In HSD mice, GIT expression levels of fat oxidation genes were reduced, and increased de novo lipogenesis was evident in ileum. Gene expression levels of the putative sugar sensor, slc5a4a and slc5a4b, and fat sensor, cd36, were downregulated in the small intestines of HSD mice. In HSD mice, there was also evidence of bacterial overgrowth and a lipopolysaccharide activated inflammatory pathway involving inducible nitric oxide synthase (iNOS). In Caco-2 cells, sucrose significantly increased the expression levels of the nos2, iNOS and nitric oxide (NO) gas levels. In conclusion, sucrose fed induced obesity/diabetes is associated with changes in GI macronutrient sensing, appetite regulation and nutrient metabolism and intestinal microflora. These may be important drivers, and thus therapeutic targets, of diet-related metabolic disease. MDPI 2020-12-25 /pmc/articles/PMC7794826/ /pubmed/33375525 http://dx.doi.org/10.3390/ijms22010137 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
O’Brien, Patrick
Han, Ge
Ganpathy, Priya
Pitre, Shweta
Zhang, Yi
Ryan, John
Sim, Pei Ying
Harding, Scott V.
Gray, Robert
Preedy, Victor R.
Sanders, Thomas A. B.
Corpe, Christopher P.
Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism
title Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism
title_full Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism
title_fullStr Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism
title_full_unstemmed Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism
title_short Chronic Effects of a High Sucrose Diet on Murine Gastrointestinal Nutrient Sensor Gene and Protein Expression Levels and Lipid Metabolism
title_sort chronic effects of a high sucrose diet on murine gastrointestinal nutrient sensor gene and protein expression levels and lipid metabolism
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7794826/
https://www.ncbi.nlm.nih.gov/pubmed/33375525
http://dx.doi.org/10.3390/ijms22010137
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